Abstract
Many arthropods carry maternally inherited endosymbionts that cause cytoplasmic incompatibility (CI), manifested as embryonic mortality in matings of infected males with uninfected females. Infected females, however, do not suffer this cost. Therefore, in populations with mixed endosymbiont infections, selection is expected to favour mechanisms that enable hosts to avoid or mitigate CI. This may include changes in mating behaviour, such as reduced female receptivity to mating and/or remating when approached by incompatible males. Here, we investigated mating behavioural traits in haplodiploid thrips naturally associated with two CI-inducing endosymbionts, Cardinium and Wolbachia. Compared with females with both endosymbionts, those with only Cardinium showed reduced receptivity to males carrying both. However, surprisingly, females without endosymbionts were not less receptive to incompatible males. Furthermore, in contrast to females without endosymbionts, females with Cardinium were far less likely to remate with incompatible than compatible males irrespective of the compatibility type of the first mating. Our results suggest that endosymbiont-specific sexual selection processes occur, whereby females carrying only Cardinium recognize Wolbachia in coinfected males to avoid CI. This may hinder a CI-driven Wolbachia spread. Endosymbiont-mediated mating behaviours may be crucial for the dynamics of CI-inducing endosymbionts and their application in pest management strategies.
Original language | English |
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Article number | 20241564 |
Number of pages | 10 |
Journal | Proceedings of the Royal Society B: Biological Sciences |
Volume | 291 |
Issue number | 2033 |
DOIs | |
Publication status | Published - 2024 |
Bibliographical note
Publisher Copyright:© 2024 The Author(s).
Keywords
- Cardinium
- cytoplasmic incompatibility
- host-endosymbiont conflict
- mating behaviour
- pest management
- Wolbachia invasion
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Mating receptivity mediated by endosymbiont interactions in a haplodiploid thrips species
Touranimalidareh, A., Katlav, A., Cook, J. & Riegler, M., Western Sydney University, 22 Jun 2022
https://figshare.com/s/8d33bd804a146535e72a
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